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Selected Works of Yakov Borisovich Zeldovich, Volume I
Selected Works of Ya. B. Zeldovich is a two-volume collection of over 100 articles spanning half a century of work by the late Soviet scientist Yakov Borisovich Zeldovich. The breadth and depth of Zeldovich's work is staggering. Author of over twenty books and more than 500 scientific articles, he made fundamental contributions in chemical catalysis and kinetics, combustion and the hydrodynamics of explosive phenomena, nuclear chain reactions and nuclear energy, the physics of elementary particles, and the large-scale structure of the universe and cosmology. The importance of this collection lies not only in its documentary value as a collection of key scientific works by a man whose genius ...
Doklady
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Combustion Phenomena
Extensively using experimental and numerical illustrations, CombustionPhenomena: Selected Mechanisms of Flame Formation, Propagation, and Extinction provides a comprehensive survey of the fundamental processes of flame formation, propagation, and extinction. Taking you through the stages of combustion, leading experts visually display, mathematically explain, and clearly theorize on important physical topics of combustion. After a historical introduction to the field, they discuss combustion chemistry, flammability limits, and spark ignition. They also study counterflow twin-flame configuration, flame in a vortex core, the propagation characteristics of edge flames, instabilities, and tulip ...
NASA Technical Note
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Assessment of Safety and Risk with a Microscopic Model of Detonation
Whereas the current plane wave, homogeneous flow detonation physics is an excellent engineering tool for numerical predictions under given conditions, the multi-hot-spot-model is an additional tool for analyzing phenomena that cannot be explained by classical calculations. The real benefit comes from being able to understand, without any artificial assumptions, the whole phenomenology of detonations and explosions. By specifying pressure generating mechanisms, one is able to see that the current treatment of the detonics of energetic materials is only a very special - but powerful - case of explosion events and hazards. It becomes clear that physical explosions must be taken into account in any safety considerations. In these terms it is easy to understand why even liquid carbon dioxide and inert silo materials can explode. A unique collection of unexpected events, which might surprise even specialists, has resulted from the evaluation of the model.-
